US10656394B2ActiveUtilityPatentIndex 73
Optical imaging system
Est. expiryOct 19, 2035(~9.3 yrs left)· nominal 20-yr term from priority
Inventors:LEE TAE YOUN
G02B 9/62G02B 13/0045G02B 13/18H04N 5/2254
73
PatentIndex Score
2
Cited by
23
References
15
Claims
Abstract
There is provided an optical imaging system including a first lens, a second lens, a third lens, a fourth lens, a fifth lens, and a sixth lens. The first lens includes a negative refractive power and a concave object-side surface. The second lens includes a concave object-side surface. The fourth lens includes a negative refractive power. The sixth lens includes an inflection point formed on an image-side surface thereof. The first to sixth lenses are sequentially disposed from an object side toward an imaging plane.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. An optical imaging system, comprising:
a first lens comprising a negative refractive power and a concave object-side surface;
a second lens comprising a concave object-side surface;
a third lens;
a fourth lens comprising a negative refractive power and a convex object-side surface;
a fifth lens; and
a sixth lens comprising an inflection point formed on an image-side surface thereof,
wherein the first to sixth lenses are sequentially disposed from an object side toward an imaging plane.
2. The optical imaging system of claim 1 , wherein the second lens comprises a positive refractive power.
3. The optical imaging system of claim 1 , wherein the third lens comprises a positive refractive power.
4. The optical imaging system of claim 1 , wherein the fifth lens comprises a positive refractive power.
5. The optical imaging system of claim 1 , wherein the sixth lens comprises a negative refractive power.
6. The optical imaging system of claim 1 , wherein −35.0<{(1/f)*(Y/tan θ)−1}*100<−5.0, in which f is an overall focal length of the optical imaging system, Y is ½ of a diagonal length of the imaging plane, and θ is equal to half a field of view of the optical imaging system.
7. The optical imaging system of claim 1 , wherein TL/2Y<0.95, in which TL is a distance from the object-side surface of the first lens to the imaging plane, and 2Y is a diagonal length of the imaging plane.
8. The optical imaging system of claim 1 , wherein R1/f<−0.5, in which f is an overall focal length of the optical imaging system, and R1 is a radius of curvature of the object-side surface of the first lens.
9. The optical imaging system of claim 1 , wherein −5.5<(R1+R2)/(R1−R2)<0.5, in which R1 is a radius of curvature of the object-side surface of the first lens, and R2 is a radius of curvature of an image-side surface of the first lens.
10. The optical imaging system of claim 1 , wherein −1.5<f/f1<−0.05, in which f is an overall focal length of the optical imaging system, and f1 is a focal length of the first lens.
11. The optical imaging system of claim 1 , wherein 0.5<f/f3<2.0, in which f is an overall focal length of the optical imaging system, and f3 is a focal length of the third lens.
12. The optical imaging system of claim 1 , wherein 0.7<|f/f6|<1.8, in which f is an overall focal length of the optical imaging system, and f6 is a focal length of the sixth lens.
13. The optical imaging system of claim 1 , wherein 1.5<f/EPD<2.1, in which f is an overall focal length of the optical imaging system, and EPD is an entrance pupil diameter of the optical imaging system.
14. The optical imaging system of claim 1 , wherein 0.4<(t1+t2)/t3<1.3, in which t1 is a thickness at an optical axis center of the first lens, t2 is a thickness at an optical axis center of the second lens, and t3 is a thickness at an optical axis center of the third lens.
15. The optical imaging system of claim 1 , wherein 0<|n1−n2|<0.25, in which n1 is a refractive index of the first lens, and n2 is a refractive index of the second lens.Cited by (0)
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